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萍乡显性核不育水稻育性相关基因的定位和遗传分析
引用本文:黄廷友,王玉平,马炳田,马玉清,李仕贵. 萍乡显性核不育水稻育性相关基因的定位和遗传分析[J]. 遗传学报, 2007, 34(7): 616-622. DOI: 10.1016/S1673-8527(07)60070-8
作者姓名:黄廷友  王玉平  马炳田  马玉清  李仕贵
作者单位:1. 四川农业大学水稻研究所,成都,611130;四川农业大学作物基因资源与遗传改良教育部重点实验室,雅安,625014;绵阳农业科学研究所,绵阳,621023
2. 四川农业大学水稻研究所,成都,611130;四川农业大学作物基因资源与遗传改良教育部重点实验室,雅安,625014
基金项目:教育部创新团队发展基金;教育部全国优秀博士学位论文作者专项基金
摘    要:萍乡显性核不育水稻(Pingxiang Dominant Genic Male Sterile Rice,PDGMSR)是在水稻中首次发现的显性核不育材料,其育性由两对显性基因互作控制,一对是萍乡显性核不育基因Ms-p,另一对是显性上位恢复基因(dominant epistatic fertility restorer gene,Rfe)。两者共同存在时显性上位恢复基因能抑制不育基因的表达,从而使育性表现可育。本实验用一个对萍乡显性核不育水稻有恢复能力的水稻品种E823与萍乡显性核不育水稻配制杂交组合,将(萍乡核不育水稻/E823)F2作为定位群体,根据F3株系的育性分离,选择育性分离株系对应F2单株(基因型为Ms-pMs-pRefrfe和Ms-pms-pRferfe)构建可育池,用对应F2株系中的不育单株(基因型为Ms-pMs-prferfe或Ms-pms-prferfe)构建不育池,将显性上位恢复基因Rfe定位在水稻10染色体RM311和RM3152一侧,遗传距离分别为7.9cM和3.6cM。根据已有的Ms-p的定位结果,合成10染色体部分微卫星引物,对不育单株进行分析,发现RM171和RM6745位于Ms-p的两侧,距离分别为0.3cM和3.0cM。根据10染色体的测序结果,将Ms-p界定在约730kb的范围内,并构建了Ms-p的电子重叠群。植物显性核不育的育性恢复机理存在“复等位基因”和“显性上位互作”两种假说,贺浩华等用经典的遗传学方法证明了萍乡显性核不育水稻育性恢复的遗传机理属于“显性上位互作”。理论上认为,确定其遗传机理最为有效的方法是基因定位,如果不育基因和恢复基因位于同一位点,则其遗传机理属于“复等位基因”,否则为“显性上位互作”。本实验将不育基因和恢复基因定位在水稻10染色体不同的位点,用基因定位的方法证实了萍乡显性核不育水稻育性恢复的遗传机理属于“显性上位互作”。

关 键 词:显性上位恢复基因  显性核不育  基因定位  萍乡显性核不育水稻
收稿时间:2006-09-17
修稿时间:2006-09-17

Genetic Analysis and Mapping of Genes Involved in Fertility of Pingxiang Dominant Genic Male Sterile Rice
Tingyou Huang,Yuping Wang,Bingtian Ma,Yuqing Ma,Shigui Li. Genetic Analysis and Mapping of Genes Involved in Fertility of Pingxiang Dominant Genic Male Sterile Rice[J]. Journal of Genetics and Genomics, 2007, 34(7): 616-622. DOI: 10.1016/S1673-8527(07)60070-8
Authors:Tingyou Huang  Yuping Wang  Bingtian Ma  Yuqing Ma  Shigui Li
Affiliation:Rice Research Institute, Sichuan Agricultural University, Chengdu 611130, China.
Abstract:Pingxiang dominant genic male sterile rice (PDGMSR) was the first dominant genic male sterile mutant identified in rice (Oryza sativa L.), and the corresponding dominant genic male sterile gene was designated as Ms-p. The fertility of PDGMSR can be restored by introduction of a dominant epistatic fertility restoring gene in some rice varieties. In the present study, E823, an indica inbred rice variety, restored the fertility of PDGMSR, and the genetic pattern was found to be consistent with a dominant epistatic model, therefore, the dominant epistatic fertility restorer gene was designated as Rfe. The F2 population from the cross of PDGMSR/E823 was developed to map gene Rfe. The F2 plants with the genotypes Ms-pMs-pRferfe or Ms-pms-pRferfe were used to construct a fertile pool, and the corresponding sterile plants with genotypes Ms-pMs-prferfe or Ms-pms-prferfe were used to con-struct a sterile pool. The fertility restoring gene Rfe was mapped to one side of the microsatellite markers RM311 and RM3152 on rice chromosome 10, with genetic distances of 7.9 cM and 3.6 cM, respectively. The microsatellite markers around the location of the Ms-p gene were used to finely map the Ms-p gene. The findings of this study indicated that the microsatellite markers RM171 and RM6745 flanked the Ms-p gene, and the distances were 0.3 cM and 3.0 cM, respectively. On the basis of the sequence of rice chromosome 10, the physical distance between the two markers is approximately 730 kb. These findings facilitates molecular marker-assisted selection (MAS ) of genes Ms-p and Rfe in rice breeding programs, and cloning them in the future.
Keywords:dominant epistatic fertility restoring gene  dominant genic male sterile  gene mapping  PDGMSR
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